Низковольтные электродвигатели ABB с тормозом, 63-180 мм, 0,055-22 кВт

Catalog | Mars 2014

Low voltage Brake motors

We provide motors, generators and mechanical power transmission products, services and expertise to save energy and improve customers’ processes over the total life cycle of our products, and beyond.

2 9AKK105873 EN 03-2014 | ABB Motors and Generators

Low voltage Brake Motors Totally enclosed squirrel cage three phase low voltage motors, Sizes 63 - 180, 0.055 to 22 kW

Mechanical design Ordering information Technical data Variant codes Rating plates Dimension drawings Brake motors in brief

4 11 12 24 24 25 27

ABB Motors and Generators | 9AKK105873 EN 03-2014 3

Mechanical design

Degrees of protection The degrees of protection, as per IEC standards 60034-5, are: terminal box and electrical components of the brake – IP 55; other motor parts – IP 55.

Mechanical components of the brake – IP 23 S. Mechanical parts of the brake, protected with a rubber ring and V-ring – IP 55 (optional: variant code 213).

Mounting arrangements of brake motors The design of the brake motor enables it to operate in any mounting position. Nevertheless, the position of the drain holes should be taken into account.

intended for outdoor operation, should be provided with a protective roof to avoid water ingress and the possibility of ice forming on the brake.

Vertically mounted motors with the shaft end downwards,

Operation ABB’s brake motor is a standard motor modified for braking duties, i.e. a three phase induction motor with standard dimensions and output rating. The electro-magnetic disc brake is powered, by either DC current through a rectifier located in terminal box or three phase AC current. When the brake coil is de-energised, the brake is actuated by spring pressure.

The axial movement of the brake disc performs a dual braking action against the moving electromagnet and the motor shield, without pressure or impact being transmitted to the bearings. The brake linings withstand high temperatures, have great wear resistance and give long life. Because of the very low wear of the braking disc, the brakes of the ABB motor usually require only one-third of the maintenance required by other common brake types in the market.

Lubrication and bearings The bearings incorporate two Z-type non-friction sealing plates. The amount of grease is sufficient for the life of the bearing.

M3VRF/S

The motors are fitted with the bearings listed in the table.

M3ARF/S

Motor size

M3AA

4 9AKK105873 EN 03-2014 | ABB Motors and Generators

D-end

N-end

63 A, B, BB

6202-2Z/C3

6202-2Z/C3

71

6203-2Z/C3

6203-2Z/C3

80

6204-2Z/C3

6204-2Z/C3

90

6205-2Z/C3

6205-2Z/C3

100

6306-2Z/C3

6206-2Z/C3

112

6206-2Z/C3

6206-2Z/C3

132

6208-2Z/C3

6208-2Z/C3

160

6309-2Z/C3

6209-2Z/C3

180

6310-2Z/C3

6209-2Z/C3

Brake design

General Electromagnetic disc brakes work by the action of a set of springs and are released when applying voltage to the brake coil. This means that the motor will brake automatically in case of

Detailed view

any voltage failure,as a significant safety feature. The brake is always functional, irrespective of the mounting position of the brake motor. The external dimensions for both the DC and the three phase AC brake are identical.

1

2

3

4

6

7

8

9

10

11

12

13

M000123

1 Rectifier (DC brake only) 2 Motor N-end shield 3 Screw 4 Brake disc 5 Dust protection (optional) 6 Armature 7 Hand release 8 Hand release bellows 9 Air gap regulation screw 10 Magnet 11 Fan cover 12 Fan 13 Torque regulation screw

5

X

Brake disc The brake lining is made from asbestos-free material. It is highly resistant to wear and has excellent thermal conductivity, thus giving consistent performance even at high temperatures.

M000124

The brake disc withstands a large number of braking operations and is insensitive to dust and moisture. The core of the brake disc is grooved and made of special polyamide that absorbs impacts, enabling it to work with high vibration applications.

Readjusting the air gap

The air gap has to be readjusted to its nominal value when the wear of the lining reaches the readjustment value (Xn) stated in table 1.

At the end of the operation, check that the air gap complies with the specified value and is uniform across the whole surface. 9

10

For this operation, work on the bushings (9) after releasing the bolts (3). Tighten up the bushings in the magnet support (10) as required to reach the rated air gap value stated in table 1. Tighten the bolts (3) to the specific torque, C (see table 1).

Air gap

3

M000125

The brakes are supplied with the air gap adjusted to its nominal value.

ABB Motors and Generators | 9AKK105873 EN 03-2014 5

Replacing the brake disc

Rectifier

The brake disc must be replaced when reaching the minimum permissible lining thickness stated in Table 1.

The rectifier is a device for DC brake applications. It is highly resistant to temperature as well as to voltage peaks, and it includes an additional protection of the auxiliary contact of contactor. Its compact design enables it to be placed in the motor terminal box.

Connection for DC brake1)

Standard connection (t’21~)

Reconnection (t21=) To obtain instant braking, please see table 2 (t21=), use the following diagram.

M000127

The coil can operate reliably between of 90 % and 110 % of the rated voltage. For voltages outside these limits, please consult ABB.

M000126

The brake is fed via a rectifier. The voltage stated on the brake rating plate is that of the brake coil on the DC side of the rectifier.

M000128

Reconnection (t21~) When it is necessary to reduce the braking time, the connections should be modified according to the following diagram. The breaking of the circuit on the AC side is controlled by using an auxiliary contact of the contactor.

Connection of AC brake1) The coil should only be used between 90 % – 110 % of its rated voltage. Reconnection (t21f) To obtain instant braking, the coil must be fed separately from the motor terminals.

M000129

Standard connection (t21)

Remark: Regardless of whether a DC or AC brake is used, the brake is usually connected to the motor terminals of single-speed motors. It can, however, also be delivered with a separate 1)

6 9AKK105873 EN 03-2014 | ABB Motors and Generators

brake supply (variant code 086). In case of two-speed motors, the brake is always connected separately. Separate brake connection is compulsory when the motor is driven by a frequency converter.

The device is a lever used to override the action of the brake springs for as long as it is applied. Hand release is included as standard, except for frame size 63, where it is available as option, see variant code 088. When installing the release lever, please proceed as follows: Remove the rubber protection, if fitted. Insert the screw (1) with its washer, position the spring (2) and washer (3) and tighten the nut (4) firmly. Fit the other washer and the squarehead nut (5); adjust the position of the nut in relation to the moving magnet (Y value) with the central screw (1). When the required value is reached, tighten the inner nut (4) while holding nut (5) fixed. Important: The use of the release lever needs periodic checking of the Y value and the air gap. The air gap should never exceed the maximum values stated in brake data table 1. Failure to check could result in malfunction due to mechanical locking of the armature.

Size

Y

FM 075.5

1

FM 088.6

1

FM 100.6

1

FM 120.6

1

FM 140.6

1.5

FM 155.6

1.5

FM 170.6

1.5

FM 206.6

1.5

M000130

Hand release

Torque adjustment

Instructions for how to regulate torque are delivered with the brake motor. These instructions describe how to loosen the torque regulation screw (13), as well as the relation between dimension A and torque. Reduced braking torque, from 60 % up to 33 %, is available by using variant code 087 (applies for frame sizes 71 - 180).

M000131

In brake motors from frame size 71 up to 180, the braking torque can be adjusted from 100 % up to 55 % of the nominal torque as standard.

ABB Motors and Generators | 9AKK105873 EN 03-2014 7

Brake operating times The operating times stated in brake data table 2 are valid for the nominal air gap and warmed-up brake coil. t 1 t 21 U 2 T B

= = = =

Brake release time. Braking time. Rated voltage. Nominal braking torque.

M000132

Brake release time = the time from when voltage is applied to the brake coil up to the ceasing of braking action. Braking time = the time from when the current is switched off up to the starting of braking action.

Special brakes (with DC brake) Two-speed motors with one or two windings, motors with 9 or 12 terminals, and motors that have to be started with star-delta connection, with brake coil for DC, are supplied with the rectifier fitted in the motor terminal box, without the two wires that normally connect it to the motor terminal. The AC supply to the rectifier is independent to the motor supply and should be fed by the main contactor. The standard brake coil connection voltages for 50 and 60 Hz will be those stated in the following table, unless stated otherwise in the order: 1) 2) 3)

H.W. = Half-wave rectifier, F.W. = Full-wave rectifier Special coil on request Available using variant code 285

8 9AKK105873 EN 03-2014 | ABB Motors and Generators

Rectifier input

Rectifier type

D.C. coil brake

voltage (VAC)

1)

voltage (V)

110

F.W.

102

220

F.W.

205

230

F.W.

205

240

F.W.

205

250

F.W.

223

2)

254

F.W.

223

2)

380

H.W.

178

400

H.W

178

415

H.W

178

420

H.W.

178

440

H.W.

205

500

H.W.

223

24 V

None

24

DC

3)

2)

2)

Brake data tables Table 1. Brake motor size

63

71

80

90

100

112

132

160/180

75.5

88.6

100.6

120.6

140.6

155.6

170.6

206.6

7.5

10

24

35

44

86

130

200

230 200

A/B Brake type Rated torque

TBnom (Nm)

1)

Delivered torque

2)

Nominal air gap

2p

TBdel (Nm)

4

8

21

30

38

72

120

130

X (mm)

0.2

0.2

0.25

0.35

0.4

0.4

0.4

0.4 8.5

4-8 p

Minimum permissible brake disc thickness

(mm)

3.5

3.5

5

5.5

6

6

7.5

Recommended air gap readjustment

X n (mm)

0.5

0.5

0.6

0.7

0.8

0.8

0.8

0.9

Thickness of new brake disc

E m (mm)

5.5

6

7.5

8.5

9.5

9.5

11

13

Tightening torque: bolt

C s (Nm)

6

6

12

12

30

30

30

50

- AC brake motor

(VA)

60

110

160

250

500

700

990

2000

- DC brake motor

(W)

30

32

45

72

91

100

120

170

Friction work per operation

WR max (J)

1x10 3

1.5x103

2x103

3.5x103

6.6x103

8x103

1.1x104

2x104

Friction work

PR max (J/h)

3x10

5

3.5x10

4.5x10

7x10

9x10

9.5x10

1x10

1.2x106

Operation for thickness wear of 0.1 mm

WR 0.1 (J)

7x10

6

10x10

Moment of inertia

J (kgm 2)

1.5x10-5

3.7x10-5

7.5x10-5

2x10-4

3.7x10-4

6.2x10-4

10.4x10-4

26.4x10-4

Weight

(kg)

0.8

1

1.6

2.7

4

5.2

9

16.2

Input coil:

5

15x10

6

5

6

5

17x10

6

5

31x10

6

5

31.5x10

6

6

48x10

80x106

6

Braking torque after performing 10.000–15.000 operations. Delivered torque: Torque value marked on rating plate corresponding to the braking torque when the brake motor leaves the ABB factory. Tolerance of +/-10% of this value is accepted. Ambient conditions, temperature on friction surfaces, brake motor positioning and transport applied on the product can affect this value. 1) 2)

In general, all the variables mentioned above can affect the braking torque values, so if an accurate value is needed, ABB recommends it is measured in the real application. This allows adjustment to the required value by using the torque regulation facility.

Table 2. Braking (t21) and release (t1) times Brake motor sizes

63

71

80

90

100

112

132

160/180

75.5

88.6

100.6

120.6

140.6

155.6

170.6

206.6

A/B Brake type AC brake coil - release time

t1 (ms)

5

6.6

5

5.1

5.5

5

5

5.5

- standard braking time

t21 (ms)

25

25

30

40

50

50

65

105

- fast braking time

t21f (ms)

10

10

10

10

10

10

10

10

- release time

t1 (ms)

20

20

25

35

40

50

60

100

- std connection time

t’21 (ms)

150

170

210

330

420

720

850

930

- reconnection time

t21 (ms)

30

35

45

70

90

155

190

150

- fast reconnection time

t21= (ms)

10

10

15

20

35

45

55

DC brake coil

When fast braking in AC brake is used, the contactor that is operating the coil of the brake has to be over dimensioned taking in consideration a high inductive load.

ABB Motors and Generators | 9AKK105873 EN 03-2014 9

Calculations Maximum number of connections per hour The connection frequency that may be achieved with the motors is limited by the temperature rise that they undergo both in the coil and in the rotor. The brakes are designed so that they may withstand the kinds of duty for which these motors are intended.

Permitted friction work per operation Friction work per operation must not exceed the WRmax values stated in brake data table 1. 1 π x n m 2 WR = —— x J ———— in joules 2 30

The maximum number of connections per hour depends on:

Friction work per hour The friction work can be calculated if the number of operations per hour is known.

−− the power P2 required after reaching the rated speed, i.e. the relative load P with regard to the rated power P n.     P2 P = —— x 100 % P     n − − the total inertia J in kgm2 of the mass to be accelerated (inertia of the rotor J m as per catalogue, plus the additional inertia Jb of the driven machine) in relation to the motor shaft, that is, Jb multiplied by the square of the coefficient of the load speed divided by the motor speed. nb 2 J = J m + Jb x —— nm − − the relative duration factor for service S4.

[ ]

S4 =

connection time x 100 in % connection time + downtime

For calculations of the maximum number of connections/hour, please consult ABB. Required data: − − Type of brake motor − − Load inertia reduced at motor shaft − − Required power P2 − − Type of service

[

]

This value must be equal to or less than the PRmax stated in brake data table 1.

PR = WR x c/h

Braking time The total braking time from the disconnecting of brake until the machine is stopped is calculated as follows: 104.6 x

J x nm TB

t=

t and t 21 are in ms

+ t21

Maximum number of operations until wear of 0.1 mm The service life, expressed in switching operations, can be calculated with the aid of the values WR0.1 given in brake data table 1. L 0.1 =

WR0.1 WR

Number of operations before readjusting the air gap With the Xn values in table 1 we can calculate the number of required operations until the readjustment of air gap becomes necessary.

Ln =

Xn - X 0.1

x L0.1

Options Separate brake supply For brakes which need an independent supply, please note the variant code 086 and the voltage for feeding the brake. When the motor is supplied via a frequency converter, both in the case of DC and AC, the brake should be supplied separately at rated voltage (constant). The separate brake supply can be connected directly, no separate terminal box is needed. Dust protection To protect the brake disc against dust, the brake can be supplied with a rubber protection ring and V-ring. Variant code 213 should be stated in the order.

10 9AKK105873 EN 03-2014 | ABB Motors and Generators

Braking torque reduction Reduced braking torque range, from 60 % up to 33 %, is available by using variant code 087. Protective roof To protect motors from accumulation of water, ice or snow when installed outdoors in the vertical position and with the shaft downwards, the assembly should be fitted with a protective roof. Variant code 005 should in this case be stated in the order.

Ordering information

When placing an order, please state the following minimum data in the order, as in the example. The product code of the motor is composed in accordance with the following example.

Motor type

M3ARF 112M

Pole number

4

Mounting arrangement (IM-code)

IM B3 (IM 1001)

Rated output

4 kW

Product code

3GAR112401-ADE

Variant codes if needed Brake information

A

B

C

D

E

F

G

M3ARF 112 M 3GAR 11 2 401 - A D  E , 088 etc.

A = Motor type M3VRF/M3ARF (DC brake) M3VRS/M3ARS (AC brake) B = Motor size

1

2

3

4

5

6

7

C = Product code

8 9 10 11 12 13 14

D = Mounting arrangement code E = Voltage/frequency code F = Generation code G = Variant code

Positions 1 to 4

Position 12

3GAA = Totally enclosed motor, aluminum frame 3GVA = Totally enclosed motor, aluminum frame, alternative design

Mounting arrangement A = Foot-mounted. B = Flange-mounted. Large aluminum flange with clearance holes, sizes 63-100.

Position 4 R = Brake motor

C = Flange-mounted. Small aluminum flange with tapped holes, sizes 63-100.

Positions 5 and 6

E = Flange-mounted. Large cast iron flange with clearance holes, sizes 112-132.

IEC-size 06 = 63

12 = 112

07 = 71

13 = 132

08 = 80

H = Foot- and flange-mounted. Large aluminum flange with clearance holes, sizes 63-100. J = Foot- and flange-mounted. Small aluminum flange with tapped holes, sizes 63-100.

09 = 90 10 = 100

K = Foot- and flange-mounted. Large cast iron flange with clearance holes, sizes 112-132.

Position 7

N = Flange mounted. Two piece cast iron flange (IEC-1) with clearance holes, sizes 90-132.

Speed (Pole pairs) 1 = 2 poles

6 = 12 poles

2 = 4 poles

7 = > 12 poles

3 = 6 poles

8 = Two-speed motors

4 = 8 poles

9 = Multi-speed motors

P = Foot- and flange-mounted. Two piece cast iron flange (IEC) with clearance holes, sizes 90-132. Position 13

5 = 10 poles

Voltage and frequency code

See table below

Position 8 to 10 Serial number

Position 14 Generation code = C (size 63), E (sizes 71-132)

Position 11

The product code must be, if needed, followed by variant codes.

- (dash)

ABB Motors and Generators | 9AKK105873 EN 03-2014 11

Technical data Single-speed DC brake motors

IP 55 – IC 411 – Insulation class F, temperature rise class B – Brake IP 23 S Torque rated

Output Motor type

kW

Product code

Speed TN

TB

T S/

r/min

Nm

TN

Nm

3000 r/min = 2 pole

Current

Efficiency braking

Power K1) 100 % 75 %

factor

IN

cos ϕ

A

400 V 50 Hz

IS/IN

c/h2)

Moment

Weight

of inertia

foot

J=1/4GD 2

mounted

kgm2

kg

Basic design

0.37

M3VRF

71 A

3GVR

071 401-CSE

2840

1.25

10

3.8

7.6

77.1

76.5

0.72

1

5.5

2600

0.00051

7

0.55

M3VRF

71 B

3GVR

071 402-ASE

2830

1.86

10

3.6

5.26

79.2

78.2

0.76

1.35

5.7

2600

0.0006

8

0.75

M3VRF

80 A

3GVR

081 401-BSE

2870

2.49

24

2.9

9.6

81.2

79.3

0.75

1.8

6.2

2000

0.00074

11

1.5

M3ARF

90 S

3GAR

091 401-••E

2870

5

35

2.4

7

80.1

76.2

0.82

3.35

5.5

1300

0.0021

19

2.2

M3ARF

90 L

3GAR

091 402-••E

2880

7.5

35

2.7

4.7

83.6

83.9

0.87

4.37

7.0

1200

0.0026

22

3

M3ARF

100 L

3GAR

101 401-••E

2900

10

44

2.7

4.4

86.0

84.1

0.88

5.95

7.5

1000

0.00453

32

4

M3ARF

112 M

3GAR

111 401-••E

2850

13.4

86

2.8

6.41

86.0

86.2

0.91

7.4

7.5

500

0.01078

38

5.5

M3ARF

132 SA

3GAR

131 401-••E

2855

18.4

130

3.2

7.06

86.0

86.6

0.88

10.5

7.8

600

0.01657

57

7.5

M3ARF

132 SB

3GAR

131 402-••E

2860

25.1

130

3.4

5.17

88.0

86.2

0.89

13.9

8.5

500

0.01857

62

M3VRF

71 BC

3GVR

071 404-CSE

2800

2.57

10

3.1

3.84

78.5

77.9

0.85

1.7

5.1

2400

0.0006

8

2.7

3)

M3ARF

90 LB

3GAR

091 403-••E

2860

9

35

2.6

3.88

80.7

83.5

0.86

5.7

7.0

1200

0.0029

24

4

3)

M3ARF

100 LB

3GAR

101 402-••E

2900

13

44

2.7

3.38

85.0

84.3

0.86

8.1

7.5

1000

0.00543

36

5.5

3)

M3ARF

112 MB

3GAR

111 402-••E

2855

18.4

86

2.7

4.67

86.5

87.1

0.93

9.9

7.3

500

0.01273

66

9.2

3)

M3ARF

132 SBB

3GAR

131 404-••E

2825

31.1

130

3.2

4.18

86.0

88.2

0.93

16.6

7.3

500

0.02457

77

11

3)

M3ARF

132 SC

3GAR

131 403-••E

2835

37

130

3.2

3.51

87.0

87.4

0.93

19.6

8.0

500

0.02383

77

3000 r/min = 2 pole 0.75

400 V 50 Hz

1)

Braking-torque ratio

2)

No-load (shaft-free) operations/hour

3)

Temperature rise class F.

High-output design

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code, see below and ordering information page.

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412.

Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): S

D

Motor

Brake

X

Motor

Brake

(input rectifier

Motor

(input rectifier

size

50 Hz

60 Hz

voltage/brake voltage)

50 Hz

60 Hz

voltage/brake voltage)

63-132

220-240 V∆

250-280 V∆

220-240 V/205 V d.c.

380-420 V∆

440-480 V∆

380-420 V/178 V d.c.

380-420 VY

660-690 VY

–

E

F

Motor

Brake

Motor

(input rectifier

Motor

Any other rated voltage or frequency, 690 V maimum connection for motor and 500 V for brake (input rectifier)

Brake (input rectifier

size

50 Hz

voltage/brake voltage)

50 Hz

voltage/brake voltage)

63-80

–

–

500 VY

500 V/223 V d.c.

90-132

500 V∆

500 V/223 V d.c.

500 VY

500 V/223 V d.c.

12 9AKK105873 EN 03-2014 | ABB Motors and Generators

Technical data Single-speed DC brake motors

IP 55 – IC 411 – Insulation class F, temperature rise class B – Brake IP 23 S Torque rated

Output kW

Motor type

Product code

Speed TN

TB

T S/

r/min

Nm

TN

Nm

1500 r/min = 4 pole

Current

Efficiency braking

Power K1) 100 % 75 %

factor

IN

cos ϕ

A

400 V 50 Hz

IS/IN

c/h2)

Moment

Weight

of inertia

foot

J=1/4GD 2

mounted

kgm2

kg

Basic design

0.18

M3VRF

63 B

3GVR

062 402-BSC

1380

1.25

7.5

2.5

5.76

65.6

62.1

0.64

0.63

3.1

7100

0.00036

5.5

0.25

M3VRF

71 A

3GVR

072 401-CSE

1410

1.71

10

2.7

5.88

70.4

69.1

0.71

0.74

4.3

6500

0.00081

7

0.37

M3VRF

71 B

3GVR

072 402-ASE

1420

2.51

10

2.6

4

74.6

72.1

0.69

1.05

4.4

6500

0.00104

8

0.37

M3VRF

71 B

3GVR

072 402-BSE

1420

2.51

10

2.6

4

74.6

72.1

0.69

1.05

4.4

6500

0.00104

8

0.37

M3VRF

71 B

3GVR

072 402-CSE

1420

2.51

10

2.6

4

74.6

72.1

0.69

1.05

4.4

6500

0.00104

8

0.55

M3VRF

80 A

3GVR

082 401-ASE

1390

3.75

24

2.6

6.31

75.3

73.1

0.76

1.4

4.6

5000

0.00128

11

0.55

M3VRF

80 A

3GVR

082 401-BSE

1390

3.75

24

2.6

6.31

75.3

73.1

0.76

1.4

4.6

5000

0.00128

11

0.75

M3VRF

80 B

3GVR

082 402-ASE

1410

5.08

24

3.5

4.7

78.2

75.6

0.74

1.9

4.7

5000

0.00159

12

0.75

M3VRF

80 B

3GVR

082 402-BSE

1410

5.08

24

3.5

4.7

78.2

75.6

0.74

1.9

4.7

5000

0.00159

12

0.75

M3VRF

80 B

3GVR

082 402-CSE

1410

5.08

24

3.5

4.7

78.2

75.6

0.74

1.9

4.7

5000

0.00159

12

0.75

M3VRF

80 B

3GVR

082 402-CFE

1410

5.08

24

3.5

4.7

78.2

75.6

0.74

1.9

4.7

5000

0.00159

12

1.1

M3ARF

90 S

3GAR

092 401-••E

1410

7.5

35

2.2

4.66

77.5

76.4

0.81

2.59

5.0

3200

0.0034

19

1.5

M3ARF

90 L

3GAR

092 402-••E

1420

10

35

2.4

3.5

80.3

78.1

0.79

3.45

5.0

3200

0.0045

22

2.2

M3ARF

100 LA

3GAR

102 401-••E

1430

15

44

2.4

2.93

83.0

82.7

0.81

4.8

5.5

2700

0.00733

32

3

M3ARF

100 LB

3GAR

102 402-••E

1430

20

44

2.5

2.2

85.0

83.9

0.81

6.48

5.5

2700

0.00863

35

4

M3ARF

112 M

3GAR

112 401-••E

1435

26.6

86

2.9

3.23

84.5

83.9

0.80

8.6

7.0

2500

0.01578

40

5.5

M3ARF

132 S

3GAR

132 401-••E

1450

36.2

130

2.2

3.59

87.0

87.7

0.83

11.1

7.3

1800

0.03357

60

7.5

M3ARF

132 M

3GAR

132 402-••E

1450

49.4

130

2.5

2.63

88.0

88.6

0.83

14.8

7.9

1400

0.04057

68

1500 r/min = 4 pole

400 V 50 Hz 71 C

3GVR

072 404-BSE

1410

3.74

10

2.7

High-output design

0.55

M3VRF

2.7

77.3

76.9

0.73

1.45

4.8

6500

0.00125

9

1.85

M3ARF

90 L

3GAR

092 403-••E

1390

13

35

2.2

2.69

79.5

78.1

0.80

4.4

4.5

3200

0.0045

22

2.2

M3ARF

90 LB

3GAR

092 404-••E

1390

15

35

2.2

2.33

80.3

81.0

0.83

4.85

4.5

3200

0.0048

23

4

M3ARF

100 LC

3GAR

102 403-••E

1420

27

44

2.5

1.62

81.0

81.7

0.82

8.65

5.5

2700

0.009

36

5.5

M3ARF

112 MB

3GAR

112 402-••E

1425

36.9

86

2.8

2.33

84.5

83.5

0.83

11.4

7.1

2500

0.018

47

9.2

M3ARF

132 MBA

3GAR

132 404-••E

1450

60

130

2.0

2.14

88.0

88.6

0.85

17.8

7.3

1400

0.05

83

11

M3ARF

132 MB

3GAR

132 403-••E

1450

72

130

2.5

1.79

88.0

89.4

0.86

21

8.3

500

0.05

83

1)

Braking-torque ratio

2)

No-load (shaft-free) operations/hour

3)

Temperature rise class F.

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code, see below and ordering information page. Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412. Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): S

D

Motor

Brake

X

Motor

Brake

(input rectifier

Motor

(input rectifier

size

50 Hz

60 Hz

voltage/brake voltage)

50 Hz

60 Hz

voltage/brake voltage)

63-132

220-240 V∆

250-280 V∆

220-240 V/205 V d.c.

380-420 V∆

440-480 V∆

380-420 V/178 V d.c.

380-420 VY

660-690 VY

–

E

F

Motor

Brake

Motor

(input rectifier

Motor

Any other rated voltage or frequency, 690 V maimum connection for motor and 500 V for brake (input rectifier)

Brake (input rectifier

size

50 Hz

voltage/brake voltage)

50 Hz

voltage/brake voltage)

63-80

–

–

500 VY

500 V/223 V d.c.

90-132

500 V∆

500 V/223 V d.c.

500 VY

500 V/223 V d.c.

ABB Motors and Generators | 9AKK105873 EN 03-2014 13

Technical data Single-speed DC brake motors

IP 55 – IC 411 – Insulation class F, temperature rise class B – Brake IP 23 S Torque rated

Output Motor type

kW

Product code

Speed TN

TB

T S/

r/min

Nm

TN

Nm

1000 r/min = 6 pole

Current

Efficiency braking

Power K1) 100 % 75 %

factor

IN

cos ϕ

A

400 V 50 Hz

IS/IN

c/h2)

Moment

Weight

of inertia

foot

J=1/4GD 2

mounted

kgm2

kg

Basic design

0.25

M3VRF

71 B

3GVR

073 402-BSE

920

2.61

10

2.5

3.84

64.9

62.3

0.65

0.86

3.2

7500

0.00096

8

0.37

M3VRF

80 A

3GVR

083 401-CSE

925

3.82

24

3.1

6.28

72.9

70.8

0.72

1.04

3.8

7000

0.00186

11

0.55

M3VRF

80 B

3GVR

083 402-BSE

925

5.68

24

2.9

4.22

73.3

71.9

0.71

1.55

3.4

7000

0.0022

12

0.75

M3ARF

90 S

3GAR

093 401-••E

930

7.5

35

1.9

4.66

71.5

70.7

0.67

2.36

4.0

3800

0.0034

19

1.1

M3ARF

90 L

3GAR

093 402-••E

930

11

35

2.1

3.18

74.4

72.5

0.69

3.25

4.0

3900

0.0045

22

1.5

M3ARF

100 L

3GAR

103 401-••E

950

15

44

1.9

2.93

80.0

77.0

0.71

3.92

4.5

3300

0.0086

34

2.2

M3ARF

112 M

3GAR

113 401-••E

940

22.3

86

2.1

3.85

80.5

79.3

0.74

5.4

5.6

3200

0.015

40

3

M3ARF

132 S

3GAR

133 401-••E

960

29.8

130

2.0

4.36

84.5

82.7

0.75

6.9

6.1

2400

0.033

59

4

M3ARF

132 MA

3GAR

133 402-••E

960

39.7

130

2.0

3.27

85.5

83.1

0.78

8.7

7.1

1900

0.04

66

5.5

M3ARF

132 MB

3GAR

133 403-••E

955

55

130

2.2

2.36

86.0

85.0

0.78

11.9

6.9

1900

0.047

74

1000 r/min = 6 pole

400 V 50 Hz

High-output design

1.3

3)

M3ARF

90 LB

3GAR

093 403-••E

910

13.5

35

1.9

2.59

69.0

69.0

0.71

3.85

4.0

3800

0.005

24

2.2

3)

M3ARF

100 LC

3GAR

103 402-••E

940

22

44

1.9

2

77.0

72.8

0.71

5.9

4.5

3300

0.009

37

3

3)

M3ARF

112 MB

3GAR

113 402-••E

935

30.6

86

2.0

2.81

80.0

79.9

0.76

7.2

5.5

3200

0.018

46

6.5

3)

M3ARF

132 MC

3GAR

133 404-••E

960

64

130

2.0

2.01

85.0

84.5

0.75

14.8

6.6

2400

0.051

79

1)

Braking-torque ratio

2)

No-load (shaft-free) operations/hour

3)

Temperature rise class F.

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code, see below and ordering information page.

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412.

Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): S

D

Motor

Brake

X

Motor

Brake

(input rectifier

Motor

(input rectifier

size

50 Hz

60 Hz

voltage/brake voltage)

50 Hz

60 Hz

voltage/brake voltage)

63-132

220-240 V∆

250-280 V∆

220-240 V/205 V d.c.

380-420 V∆

440-480 V∆

380-420 V/178 V d.c.

380-420 VY

660-690 VY

–

E

F

Motor

Brake

Motor

(input rectifier

Motor

Any other rated voltage or frequency, 690 V maimum connection for motor and 500 V for brake (input rectifier)

Brake (input rectifier

size

50 Hz

voltage/brake voltage)

50 Hz

voltage/brake voltage)

63-80

–

–

500 VY

500 V/223 V d.c.

90-132

500 V∆

500 V/223 V d.c.

500 VY

500 V/223 V d.c.

14 9AKK105873 EN 03-2014 | ABB Motors and Generators

Technical data Single-speed DC brake motors

IP 55 – IC 411 – Insulation class F, temperature rise class B – Brake IP 23 S Torque rated

Output kW

Motor type

Product code

Speed TN

TB

T S/

r/min

Nm

TN

Nm

750 r/min = 8 pole

Current

Efficiency braking

Power K1) 100 % 75 %

factor

IN

cos ϕ

A

400 V 50 Hz

IS/IN

c/h2)

Moment

Weight

of inertia

foot

J=1/4GD 2

mounted

kgm2

kg

Basic design

0.37

M3ARF

90 S

3GAR

094 401-••E

700

5

35

1.9

7

61.5

43.4

0.56

1.6

3.0

4100

0.0032

19

0.55

M3ARF

90 L

3GAR

094 402-••E

690

7.5

35

1.7

4.66

62.9

56.4

0.57

2.35

3.0

4100

0.0045

22

0.75

M3ARF

100 LA

3GAR

104 401-••E

700

10

44

2.1

4.4

72.0

63.6

0.59

2.55

3.5

3600

0.0073

31

1.1

M3ARF

100 LB

3GAR

104 402-••E

700

15

44

2.1

2.93

73.0

68.8

0.64

3.35

3.5

3700

0.0086

34

1.5

M3ARF

112 M

3GAR

114 401-••E

695

20.6

86

1.9

4.17

74.5

75.9

0.65

4.5

4.1

3600

0.016

41

2.2

M3ARF

132 S

3GAR

134 401-••E

720

29.2

130

1.6

4.45

80.5

77.8

0.67

5.9

5.3

3000

0.04

66

3

M3ARF

132 M

3GAR

134 402-••E

720

39.8

130

1.8

3.26

82.0

79.2

0.68

7.8

5.5

2600

0.047

73

1)

Braking-torque ratio

2)

No-load (shaft-free) operations/hour

3)

Temperature rise class F.

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code, see below and ordering information page.

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412.

Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): S

D

Motor

Brake

X

Motor

Brake

(input rectifier

Motor

(input rectifier

size

50 Hz

60 Hz

voltage/brake voltage)

50 Hz

60 Hz

voltage/brake voltage)

63-132

220-240 V∆

250-280 V∆

220-240 V/205 V d.c.

380-420 V∆

440-480 V∆

380-420 V/178 V d.c.

380-420 VY

660-690 VY

–

E

F

Motor

Brake

Motor

(input rectifier

Motor

Any other rated voltage or frequency, 690 V maimum connection for motor and 500 V for brake (input rectifier)

Brake (input rectifier

size

50 Hz

voltage/brake voltage)

50 Hz

voltage/brake voltage)

63-80

–

–

500 VY

500 V/223 V d.c.

90-132

500 V∆

500 V/223 V d.c.

500 VY

500 V/223 V d.c.

ABB Motors and Generators | 9AKK105873 EN 03-2014 15

Technical data Two-speed DC brake motors

IP 55 – IC 411 – Insulation class F, temperature rise class F – Brake IP 23 S Torque braking

Speed

TN

TB

T S/

r/min

Nm

Nm

TN

Output kW

Motor type

Product code

3000/1500 r/min = 2/4 poles

Current

rated

EffiK 1)

ciency factor %

400 V 50 Hz

Moment

Weight

of inertia

IM

IS/IN

J=1/4GD 2

1001

A

kgm2

kg

Power IN

cos ϕ

Constant torque, two separate windings

1.1/0.55

M3ARF

90 S

3GAR 098 401-••E

2900/1450

3.6/3.6

35

1.4/1.5

9.7/9.7

74/62

0.85/0.64

2.5/2

5.1/3.6

0.0019

20

1.5/0.75

M3ARF

90 L

3GAR 098 402-••E

2900/1450

4.9/4.9

35

1.5/1.5

7.1/7.1

77/70

0.87/0.67

3.3/2.4

5.7/4.1

0.0024

23

2.0/1.0

M3ARF

100 L

3GAR 108 401-••E

2900/1460

6.5/6.5

44

1.9/1.4

7.7/7.7

76/67

0.89/0.66

4.3/3.3

6.2/4

0.0041

32

2.6/1.3

M3ARF

112 M

3GAR 118 401-••E

2900/1460

8.6/8.5

86

1.6/1.6

10/9.9

80/75

0.92/0.72

5.1/3.5

6.4/5

0.012

45

4.4/2.2

M3ARF

132 SB

3GAR 138 401-••E

2925/1450

14.4/14.5

130

2/1.3

10.4/10

81/74

0.86/0.73

9.1/5.9

7.3/4.5

0.016

55

5.6/2.8

M3ARF

132 M

3GAR 138 402-••E

2885/1440

18.5/18.6

130

1.8/1.4

8.1/8.1

82/77

0.93/0.75

10.6/7

6.7/5

0.022

76

3000/1500 r/min = 2-4 poles

400 V 50 Hz

Constant torque, Dahlander connection

1.3/1

M3ARF

90 S

3GAR 098 403-••E

2730/1400

4.5/6.8

35

2/1.5

7.8/5.1

71/71

0.88/0.8

3.1/2.6

3.9/3.8

0.0032

20

1.9/1.5

M3ARF

90 L

3GAR 098 404-••E

2820/1420

6.4/10

35

2.8/2

5.5/3.5

74/75

0.82/0.76

4.4/3.9

5.1/4.4

0.0043

23

2.5/2.1

M3ARF

100 LA

3GAR 108 402-••E

2800/1430

8.5/14

44

2.2/1.6

5.9/3.6

68/76

0.88/0.81

6/5

4.8/4.4

0.0069

32

3.4/2.5

M3ARF

100 LB

3GAR 108 403-••E

2810/1430

11.5/18

44

2.2/1.9

4.3/2.7

78/80

0.88/0.85

7.2/5.9

5.3/5.4

0.0082

35

4/2.6

M3ARF

112 M

3GAR 118 402-••E

2865/1430

13.3/17.4

86

1.8/2.3

10/9.9

82/77

0.93/0.76

7.6/6.5

6.3/6.2

0,012

45

4.7/3.1

M3ARF

132 SB

3GAR 138 403-••E

2820/1420

15.9/20.8

130

1.8/2.2

10.4/10

79/77

0.92/0.76

9.2/7.7

5.5/5.7

0,016

55

6.5/5.7

6.3/4.4

M3ARF

132 SA

3GAR 138 411-••E

2895/1445

20.8/29

130

1.7/1.6

7.2/5.2

85/84

0.94/0.8

11.4/9.5

7.2/4.8

M3ARF

132 M

3GAR 138 404-••E

2870/1435

24/31.9

130

2.4/2.5

6.3/4.7

84/81

0.92/0.76

13.3/11.5 7.1/6.2

8/6.2

M3ARF

132 SC

3GAR 138 412-••E

2910/1440

26.2/41.1

130

1.9/1.6

6.9/3.6

87/85

0.95/0.83

14/12.7

9.6/7

M3ARF

132 MD

3GAR 138 413-••E

2900/1440

31.6/46.4

130

1.8/1.7

4.7/3.2

87/85

0.95/0.85

16.8/14.1 7.6/5.9

1500/1000 r/min = 4/6 poles

400 V 50 Hz

7.8/5.6

0,0155

58

0,022

76

0,0215

78

0,026

85

Constant torque, two separate windings

0.8/0.5

M3ARF

90 S

3GAR 098 405-••E

1430/940

5.3/5

35

1.5/1.4

7/6.6

68/57

0.8/0.66

2.2/2

3.9/2.8

0.0032

20

1.2/0.75

M3ARF

90 L

3GAR 098 406-••E

1430/940

8/7.6

35

1.7/1.5

4.6/4.4

73/63

0.81/0.67

3/2.6

4.4/3.1

0.0043

23

1.5/0.9

M3ARF

100 LA

3GAR 108 404-••E

1440/960

9.9/8.9

44

1.5/1.5

5.6/5.1

75/69

0.84/0.65

3.5/3

4.7/3.8

0.0069

32

1.8/1.1

M3ARF

100 LB

3GAR 108 405-••E

1460/960

11/11

44

2.1/1.6

4.5/4.5

77/70

0.78/0.64

4.4/3.6

5.8/3.9

0.0082

35 45

2.6/1.7

M3ARF

112 M

3GAR 118 403-••E

1445/960

17.2/16.9

86

1.5/1.5

5/4.9

80/70

0.85/0.76

5.5/4.4

5.9/5.2

0.018

3.3/2.2

M3ARF

132 S

3GAR 138 405-••E

1470/980

21.4/21.4

130

1.4/1.2

7/7

82/76

0.8/0.65

7.1/6.4

6.8/4.6

0.038

61

4.5/3

M3ARF

132 M

3GAR 138 406-••E

1470/980

29.2/29.2

130

1.4/1.5

5.1/5.1

82/77

0.81/0.7

9.8/8

7.2/5.6

0.048

79

5.5/3.7

M3ARF

132 MD

3GAR 138 414-••E

1460/960

36/36.8

130

1.9/1.8

4.2/4.2

85/81

0.88/0.8

10.7/8.3

8/6.3

0.036

84

1)

Braking-torque ratio

16 9AKK105873 EN 03-2014 | ABB Motors and Generators

Technical data Two-speed DC brake motors

IP 55 – IC 411 – Insulation class F, temperature rise class F – Brake IP 23 S Torque braking

Speed

TN

TB

T S/

r/min

Nm

Nm

TN

Output kW

Motor type

Product code

3000/750 r/min = 2/8 poles

Current

rated

Moment

Weight

of inertia

IM

IS/IN

J=1/4GD2

1001

A

kgm2

kg

Power K 1)

400 V 50 Hz

Efficien-

factor

cy %

cos ϕ

IN

Constant torque, two separate windings

0.75/0.18

M3ARF

90 LA

3GAR 098 411-••E

2875/720

2.5/2.4

35

2.3/1.3

14/14

71.2/46.3 0.8/0.51

1.9/1.1

5.7/2.4

0.0043

23

1.3/0.33

M3ARF

90 LB

3GAR 098 412-••E

2780/690

4.4/4.5

35

1.8/1.2

8/8

71/52

0.92/0.62

2.9/1.5

4.5/2.3

0.0043

23

1.8/0.5

M3ARF

100 LB

3GAR 108 410-••E

2860/705

6.6/6.7

44

1.7/1.3

8.3/7.4

80/54

0.93/0.64

3.5/2.1

5.3/2.6

0.0082

35

2.2/0.59

M3ARF

112 MC 3GAR 118 406-••E

2900/720

7.2/7.8

86

2.4/1.6

11.8/11

78/62

0.87/0.55

4.9/2.5

7/3.5

0.015

42

3.3/0.95

M3ARF

132 SA

3GAR 138 415-••E

2940/730

10.7/12.4

130

2.6/1.2

14/12

81/72

0.95/0.52

6.2/3.7

9.5/4.3

0.0215

65

4.4/1.3

M3ARF

132 MC 3GAR 138 416-••E

2920/725

14.4/17.1

130

2.2/1.3

10.7/8.8 82/74

0.94/0.62

8.3/4.1

8.6/4

0.03

77

1500/750 r/min = 4/8 poles

400 V 50 Hz

Constant torque, two separate windings

0.55/0.25

M3ARF

90 S

3GAR 098 407-••E

1450/700

3.6/3.4

35

1.3/1.4

10.3/9.7 62/51

0.78/0.59

1.9/1.2

4.2/2.3

0.0032

20

0.75/0.37

M3ARF

90 L

3GAR 098 408-••E

1450/700

4.9/5

35

1.4/1.5

7.1/7

66/57

0.75/0.57

2.2/1.7

4.1/2.5

0.0043

23

1.1/0.55

M3ARF

100 LA

3GAR 108 406-••E

1460/710

7.2/7.4

44

1.2/1.2

6.9/6.8

68/62

0.77/0.61

3.1/2.2

4.2/2.6

0.0069

32

1.5/0.75

M3ARF

100 LB

3GAR 108 407-••E

1440/700

9.8/10

44

1.3/1.2

5.1/5

72/60

0.82/0.6

3.7/2.9

4.6/2.7

0.0082

35

1.8/0.9

M3ARF

112 M

3GAR 118 404-••E

1460/715

11.7/12

86

1.2/1.6

7.3/7.1

77/65

0.76/0.66

4.4/3

6.5/4

0.018

45

2.5/1.3

M3ARF

132 S

3GAR 138 407-••E

1480/735

16.2/17

130

1.6/1.4

9.3/8.8

80/67

0.79/0.56

5.8/6

6/3.7

0.038

61

3.3/1.7

M3ARF

132 M

3GAR 138 408-••E

1470/725

21.4/22.4

130

1.6/1.4

7/6.7

81/71

0.79/0.58

7.5/6

7/4.2

0.048

79

1500/750 r/min = 4-8 poles

400 V 50 Hz

Constant torque, Dahlander connection

0.7/0.37

M3ARF

90 S

3GAR 098 409-••E

1420/700

4.7/5.1

35

1.6/1.6

7.4/6.9

72/50

0.8/0.57

1.8/1.9

4.4/2.3

0.0032

20

1.1/0.55

M3ARF

90 L

3GAR 098 410-••E

1390/685

7.4/7.5

35

1.4/1.5

4.7/4.7

70/55

0.84/0.58

2.6/2.6

4.1/2.3

0.0043

23

1.5/0.75

M3ARF

100 LA

3GAR 108 408-••E

1440/710

10/10

44

1.4/1.5

5/5

76/62

0.85/0.57

3.4/3.2

4.6/2.8

0.0069

32

2/0.95

M3ARF

100 LB

3GAR 108 409-••E

1440/710

13/12

44

1.4/1.6

4.2/3.8

78/64

0.86/0.55

4.4/4

4.8/2.9

0.0082

35

2.5/1.5

M3ARF

112 M

3GAR 118 405-••E

1410/705

16.9/20.3

86

1.4/1.5

5/4.2

78/67

0.9/0.66

5.1/4.9

5.5/4.1

0.018

45

3.8/1.9

M3ARF

132 S

3GAR 138 409-••E

1450/730

25/24.9

130

1.4/1.3

6/6

82/70

0.84/0.52

7.7/7.6

5.6/3.7

0.038

61

5/2.5

M3ARF

132 M

3GAR 138 410-••E

1455/730

32.8/32.7

130

1.7/2

4.6/4.6

85/73

0.88/0.52

9.6/9.6

6.9/4.8

0.048

79

1)

Braking-torque ratio

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code, see below and ordering information page.

Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): A

B

S

Motor

Motor

Brake (input rectifier

Motor

Brake (input rectifier

Motor

Brake (input rectifier

size

50 Hz

voltage/brake voltage)

50 Hz

voltage/brake voltage)

50 Hz

voltage/brake voltage)

63-132

–

–

220-230 V

220-230 V/205 V d.c.

D

E

X

Motor

Motor

Brake (input rectifier

Motor

Brake (input rectifier

size

50 Hz

voltage/brake voltage)

50 Hz

voltage/brake voltage)

63-132

380-400 V

380-400 V/178 V d.c.

500 V

500 V/223 V d.c.

Any other rated voltage or frequency, 690 V maimum connection for motor and 500 V for brake (input rectifier)

ABB Motors and Generators | 9AKK105873 EN 03-2014 17

Technical data Single-speed motors with three phase AC brake

IP 55 – IC 411 – Insulation class F, temperature rise class B – Brake IP 23 S Torque rated

Output Motor type

kW

Product code

Power

Speed TN

TB

T S/

r/min

Nm

TN

3000 r/min = 2 pole

Nm

Current

Efficiency braking K1) 100 % 75 %

factor

IN

cos ϕ

A

400 V 50 Hz

IS/IN

c/h2)

Moment

Weight

of inertia

foot

J=1/4GD 2

mounted

kgm2

kg

Basic design

0.55

M3VRS

71 B

3GVR

071 452-CSE

2830

1.86

10

3.6

5.26

79.2

78.2

0.76

1.35

5.7

2600

0.0006

8

0.75

M3VRS

80 A

3GVR

081 451-BSE

2870

2.49

24

2.9

9.6

81.2

79.3

0.75

1.8

6.2

2000

0.00074

11

1.1

M3VRS

80 B

3GVR

081 452-ASE

2850

3.69

24

2.3

6.48

81.4

79.5

0.78

2.5

6.1

2000

0.00078

12

1.1

M3VRS

80 B

3GVR

081 452-BSE

2850

3.69

24

2.3

6.48

81.4

79.5

0.78

2.5

6.1

2000

0.00078

12

1.5

M3ARS

90 S

3GAR

091 451-••E

2870

5

35

2.4

7

80.1

76.2

0.82

3.35

5.5

1300

0.0021

19

2.2

M3ARS

90 L

3GAR

091 452-••E

2880

7.5

35

2.7

4.6

83.6

83.9

0.87

4.37

7.0

1200

0.0026

22

3

M3ARS

100 L

3GAR

101 451-••E

2900

10

44

2.7

4.4

86.0

84.1

0.88

5.95

7.5

1000

0.00453

32

4

M3ARS

112 M

3GAR

111 451-••E

2850

13.4

86

2.8

6.41

86.0

86.2

0.91

7.4

7.5

500

0.01078

38

5.5

M3ARS

132 SA

3GAR

131 451-••E

2855

18.4

130

3.2

7.06

86.0

86.6

0.88

10.5

7.8

600

0.01657

57

7.5

M3ARS

132 SB

3GAR

131 452-••E

2860

25.1

130

3.4

5.17

88.0

86.2

0.89

13.9

8.5

500

0.01857

62

3000 r/min = 2 pole

400 V 50 Hz

High-output design

2.7

3)

M3ARS

90 LB

3GAR

091 453-••E

2860

9

35

2.6

3.9

80.7

83.5

0.86

5.7

7.0

1200

0.0029

24

4

3)

M3ARS

100 LB

3GAR

101 452-••E

2900

13

44

2.7

3.38

85.0

84.3

0.86

8.1

7.5

1000

0.00543

36

5.5

3)

M3ARS

112 MB

3GAR

111 452-••E

2855

18.4

86

2.7

4.67

86.5

87.1

0.93

9.9

7.3

500

0.01273

66

9.2

3)

M3ARS

132 SBB

3GAR

131 454-••E

2825

31.1

130

3.2

4.18

86.0

88.2

0.93

16.6

7.3

500

0.02457

77

11

3)

M3ARS

132 SC

3GAR

131 453-••E

2835

37

130

3.2

3.51

87.0

87.4

0.93

19.6

8.0

500

0.02383

77

1)

Braking-torque ratio

2)

No-load (shaft-free) operations/hour

3)

Temperature rise class F.

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code, see below and ordering information page.

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412.

Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): S

D

Motor

Motor

Brake

size

50 Hz

60 Hz

50 Hz

63-132

220-240 V∆

250-280 V∆

380-420 VY

440-480 VY

G

Motor 60 Hz

Motor

Brake

50 Hz

50 Hz

50 Hz

50 Hz

–

–

–

230 V∆ 265 V∆ 380-420 V∆

440-480 V∆

400 V∆ 460 V∆ –

400 VY

–

690 VY

18 9AKK105873 EN 03-2014 | ABB Motors and Generators

–

X

Brake

50 Hz

660-690 VY

60 Hz

H

Motor

60 Hz

460 VY

50 Hz

Brake

Any other rated voltage or frequency, 690V maximum

Technical data Single-speed motors with three phase AC brake

IP 55 – IC 411 – Insulation class F, temperature rise class B – Brake IP 23 S Torque rated

Output Motor type

kW

Product code

Power

Speed TN

TB

T S/

r/min

Nm

TN

1500 r/min = 4 pole

Nm

Current

Efficiency braking K1) 100 % 75 %

factor

IN

cos ϕ

A

400 V 50 Hz

IS/IN

c/h2)

Moment

Weight

of inertia

foot

J=1/4GD 2

mounted

kgm2

kg

Basic design

0.12

M3VRS

63 A

3GVR

062 451-BSC

1400

0.82

7.5

2.6

9.37

63.7

58.4

0.59

0.46

3.1

7100

0.00029

5

0.12

M3VRS

63 A

3GVR

062 451-CSC

1400

0.82

7.5

2.6

9.37

63.7

58.4

0.59

0.46

3.1

7100

0.00029

5

0.18

M3VRS

63 B

3GVR

062 452-BSC

1380

1.25

7.5

2.5

5.76

65.6

62.1

0.64

0.63

3.1

7100

0.00036

5.5

0.18

M3VRS

63 B

3GVR

062 452-CSC

1380

1.25

7.5

2.5

5.76

65.6

62.1

0.64

0.63

3.1

7100

0.00036

5.5

0.25

M3VRS

71 A

3GVR

072 451-BSE

1410

1.71

10

2.7

5.88

70.4

69.1

0.71

0.74

4.3

6500

0.00081

7

0.25

M3VRS

71 A

3GVR

072 451-CSE

1410

1.71

10

2.7

5.88

70.4

69.1

0.71

0.74

4.3

6500

0.00081

7

0.37

M3VRS

71 B

3GVR

072 452-ASE

1420

2.51

10

2.6

4

74.6

72.1

0.69

1.05

4.4

6500

0.00104

8

0.37

M3VRS

71 B

3GVR

072 452-BSE

1420

2.51

10

2.6

4

74.6

72.1

0.69

1.05

4.4

6500

0.00104

8

0.37

M3VRS

71 B

3GVR

072 452-CSE

1420

2.51

10

2.6

4

74.6

72.1

0.69

1.05

4.4

6500

0.00104

8

0.55

M3VRS

80 A

3GVR

082 451-ASE

1390

3.75

24

2.6

6.31

75.3

73.1

0.76

1.4

4.6

5000

0.00128

11

0.55

M3VRS

80 A

3GVR

082 451-BSE

1390

3.75

24

2.6

6.31

75.3

73.1

0.76

1.4

4.6

5000

0.00128

11

0.55

M3VRS

80 A

3GVR

082 451-CSE

1390

3.75

24

2.6

6.31

75.3

73.1

0.76

1.4

4.6

5000

0.00128

11

0.75

M3VRS

80 B

3GVR

082 452-ASE

1410

5.08

24

3.5

4.7

78.2

75.6

0.74

1.9

4.7

5000

0.00159

12

0.75

M3VRS

80 B

3GVR

082 452-BSE

1410

5.08

24

3.5

4.7

78.2

75.6

0.74

1.9

4.7

5000

0.00159

12

0.75

M3VRS

80 B

3GVR

082 452-CSE

1410

5.08

24

3.5

4.7

78.2

75.6

0.74

1.9

4.7

5000

0.00159

12

0.75

M3VRS

80 B

3GVR

082 452-BFE

1410

5.08

24

3.5

4.7

78.2

75.6

0.74

1.9

4.7

5000

0.00159

12

1.1

M3ARS

90 S

3GAR

092 451-••E

1410

7.5

35

2.2

4.66

77.5

76.4

0.81

2.59

5.0

3200

0.0034

19

1.5

M3ARS

90 L

3GAR

092 452-••E

1420

10

35

2.4

3.5

80.3

78.1

0.79

3.45

5.0

3200

0.0045

22

2.2

M3ARS

100 LA

3GAR

102 451-••E

1430

15

44

2.4

2.93

83.0

82.7

0.81

4.8

5.5

2700

0.00733

32

3

M3ARS

100 LB

3GAR

102 452-••E

1430

20

44

2.5

2.2

85.0

83.9

0.81

6.48

5.5

2700

0.00863

35

4

M3ARS

112 M

3GAR

112 451-••E

1435

26.6

86

2.9

3.23

84.5

83.9

0.80

8.6

7.0

2500

0.01578

40

5.5

M3ARS

132 S

3GAR

132 451-••E

1450

36.2

130

2.2

3.59

87.0

87.7

0.83

11.1

7.3

1800

0.03357

60

7.5

M3ARS

132 M

3GAR

132 452-••E

1450

49.4

130

2.5

2.63

88.0

88.6

0.83

14.8

7.9

1400

0.04057

68

1500 r/min = 4 pole

400 V 50 Hz

High-output design

0.25

M3VRS

63 BB

3GVR

062 453-BSC

1370

1.75

7.5

2.5

4.28

70.3

67.4

0.67

0.78

3.2

7100

0.0004

6

0.55

M3VRS

71 C

3GVR

072 454-BSE

1410

3.74

10

2.7

2.7

77.3

76.9

0.73

1.45

4.8

6500

0.00125

9

M3VRS

80 C

3GVR

082 453-BSE

1410

6.44

24

2.9

3.75

78.9

77.9

0.75

2.35

4.3

500

0.00197

13

1.85

0.95 3)

M3ARS

90 L

3GAR

092 453-••E

1390

13

35

2.2

2.69

79.5

78.1

0.80

4.4

4.5

3200

0.0045

22

2.2

3)

M3ARS

90 LB

3GAR

092 454-••E

1390

15

35

2.2

2.33

80.3

81.0

0.83

4.85

4.5

3200

0.0048

23

4

3)

M3ARS

100 LC

3GAR

102 453-••E

1420

27

44

2.5

1.62

81.0

81.7

0.82

8.65

5.5

2700

0.009

36

5.5

3)

M3ARS

112 MB

3GAR

112 452-••E

1425

36.9

86

2.8

2.14

84.5

83.5

0.83

11.4

7.1

2500

0.018

47

9.2

3)

M3ARS

132 MBA

3GAR

132 454-••E

1450

60

130

2.0

2.14

88.0

88.6

0.85

17.8

7.3

1400

0.05

83

11

3)

M3ARS

132 MB

3GAR

132 453-••E

1450

72

130

2.5

1.79

88.0

89.4

0.86

21

8.3

500

0.05

83

1)

Braking-torque ratio

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code,

2)

No-load (shaft-free) operations/hour

see below and ordering information page.

3)

Temperature rise class F.

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412. Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): S

D

Motor

Motor

Brake

size

50 Hz

60 Hz

50 Hz

63-132

220-240 V∆

250-280 V∆

380-420 VY

440-480 VY

G

Motor 60 Hz

Motor

Brake

50 Hz

50 Hz

50 Hz

50 Hz

–

–

–

230 V∆ 265 V∆ 380-420 V∆

440-480 V∆

400 V∆ 460 V∆ –

400 VY

–

690 VY

–

X

Brake

50 Hz

660-690 VY

60 Hz

H

Motor

60 Hz

460 VY

50 Hz

Brake

Any other rated voltage or frequency, 690V maximum

ABB Motors and Generators | 9AKK105873 EN 03-2014 19

Technical data Single-speed motors with three phase AC brake

IP 55 – IC 411 – Insulation class F, temperature rise class B – Brake IP 23 S Torque rated

Output Motor type

kW

Product code

Power

Speed TN

TB

T S/

r/min

Nm

TN

1000 r/min = 6 pole

Nm

Current

Efficiency braking K1) 100 % 75 %

factor

IN

cos ϕ

A

400 V 50 Hz

IS/IN

c/h2)

Moment

Weight

of inertia

foot

J=1/4GD 2

mounted

kgm2

kg

Basic design

0.25

M3VRS

71 B

3GVR

073 452-ASE

920

2.61

10

2.5

3.84

64.9

62.3

0.65

0.86

3.2

7500

0.00096

8

0.25

M3VRS

71 B

3GVR

073 452-BSE

920

2.61

10

2.5

3.84

64.9

62.3

0.65

0.86

3.2

7500

0.00096

8

0.37

M3VRS

80 A

3GVR

083 451-BSE

925

3.82

24

3.1

6.15

72.9

70.8

0.72

1.04

3.8

7000

0.00186

11

0.55

M3VRS

80 B

3GVR

083 452-ASE

925

5.68

24

2.9

4.06

73.3

71.9

0.71

1.55

3.4

7000

0.0022

12

0.55

M3VRS

80 B

3GVR

083 452-BSE

925

5.68

24

2.9

4.06

73.3

71.9

0.71

1.55

3.4

7000

0.0022

12

0.75

M3ARS

90 S

3GAR

093 451-••E

930

7.5

35

1.9

4.66

71.5

70.7

0.67

2.36

4.0

3800

0.0034

19

1.1

M3ARS

90 L

3GAR

093 452-••E

930

11

35

2.1

3.18

74.4

72.5

0.69

3.25

4.0

3900

0.0045

22

1.5

M3ARS

100 L

3GAR

103 451-••E

950

15

44

1.9

2.93

80.0

77.0

0.71

3.92

4.5

3300

0.0086

34

2.2

M3ARS

112 M

3GAR

113 451-••E

940

22.3

86

2.1

3.85

80.5

79.3

0.74

5.4

5.6

3200

0.015

40

3

M3ARS

132 S

3GAR

133 451-••E

960

29.8

130

2.0

4.36

84.5

82.7

0.75

6.9

6.1

2400

0.033

59

4

M3ARS

132 MA

3GAR

133 452-••E

960

39.7

130

2.0

3.27

85.5

83.1

0.78

8.7

7.1

1900

0.04

66

5.5

M3ARS

132 MB

3GAR

133 453-••E

955

55

130

2.2

2.36

86.0

85.0

0.78

11.9

6.9

1900

0.047

74

1000 r/min = 6 pole

400 V 50 Hz

High-output design

1.3

3)

M3ARS

90 LB

3GAR

093 453-••E

910

13.5

35

1.9

2.59

69.0

69.0

0.71

3.85

4.0

3800

0.005

24

2.2

3)

M3ARS

100 LC

3GAR

103 452-••E

940

22

44

1.9

2

77.0

72.8

0.71

5.9

4.5

3300

0.009

37

3

3)

M3ARS

112 MB

3GAR

113 452-••E

935

30.6

86

2.0

2.81

80.0

79.9

0.76

7.2

5.5

3200

0.018

46

6.5

3)

M3ARS

132 MC

3GAR

133 454-••E

960

64

130

2.0

2.01

85.0

84.5

0.75

14.8

6.6

2400

0.051

79

1)

Braking-torque ratio

2)

No-load (shaft-free) operations/hour

3)

Temperature rise class F.

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code, see below and ordering information page.

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412.

Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): S

D

Motor

Motor

size

50 Hz

60 Hz

50 Hz

63-132

220-240 V∆

250-280 V∆

380-420 VY

440-480 VY

Brake

G

Motor 60 Hz

Motor

Brake

50 Hz

50 Hz

50 Hz

50 Hz

–

–

–

230 V∆ 265 V∆ 380-420 V∆

440-480 V∆

400 V∆ 460 V∆ –

400 VY

–

690 VY

20 9AKK105873 EN 03-2014 | ABB Motors and Generators

–

X

Brake

50 Hz

660-690 VY

60 Hz

H

Motor

60 Hz

460 VY

50 Hz

Brake

Any other rated voltage or frequency, 690V maximum

Technical data Single-speed motors with three phase AC brake

IP 55 – IC 411 – Insulation class F, temperature rise class B – Brake IP 23 S Torque rated

Output kW

Motor type

Product code

Power

Speed TN

TB

T S/

r/min

Nm

TN

750 r/min = 8 pole

Nm

Current

Efficiency braking K1) 100 % 75 %

factor

IN

cos ϕ

A

400 V 50 Hz

IS/IN

c/h2)

Moment

Weight

of inertia

foot

J=1/4GD 2

mounted

kgm2

kg

Basic design

0.25

M3VRS

80 B

3GVR

084 452-ASE

700

24

3.52

2.9

6.85

70.7

67.4

0.62

0.85

3.1

7500

0.00245

12

0.37

M3ARS

90 S

3GAR

094 451-••E

700

35

5

1.9

7

61.5

43.4

0.56

1.6

3.0

4100

0.0034

19

0.55

M3ARS

90 L

3GAR

094 452-••E

690

35

7.5

1.7

4.66

62.9

56.4

0.57

2.35

3.0

4100

0.0045

22

0.75

M3ARS

100 LA

3GAR

104 451-••E

700

44

10

2.1

4.4

72.0

63.6

0.59

2.55

3.5

3600

0.0073

31

1.1

M3ARS

100 LB

3GAR

104 452-••E

700

44

15

2.1

2.93

73.0

68.8

0.64

3.35

3.5

3700

0.0086

34

1.5

M3ARS

112 M

3GAR

114 451-••E

695

86

20.6

1.9

4.17

74.5

75.9

0.65

4.5

4.1

3600

0.016

41

2.2

M3ARS

132 S

3GAR

134 451-••E

720

130

29.2

1.6

4.45

80.5

77.8

0.67

5.9

5.3

3000

0.04

66

3

M3ARS

132 M

3GAR

134 452-••E

720

130

39.8

1.8

3.26

82.0

79.2

0.68

7.8

5.5

2600

0.047

73

1)

Braking-torque ratio

2)

No-load (shaft-free) operations/hour

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code, see below and ordering information page.

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412.

Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): S

D

Motor

Motor

size

50 Hz

60 Hz

50 Hz

63-132

220-240 V∆

250-280 V∆

380-420 VY

440-480 VY

Brake

G

Motor 60 Hz

Motor

Brake

50 Hz

50 Hz

50 Hz

50 Hz

–

–

–

230 V∆ 265 V∆ 380-420 V∆

440-480 V∆

400 V∆ 460 V∆ –

400 VY

–

690 VY

–

X

Brake

50 Hz

660-690 VY

60 Hz

H

Motor

60 Hz

460 VY

50 Hz

Brake

Any other rated voltage or frequency, 690V maximum

ABB Motors and Generators | 9AKK105873 EN 03-2014 21

Technical data Two-speed motors with three phase AC brake

IP 55 – IC 411 – Insulation class F, temperature rise class F – Brake IP 23 S Torque braking

Speed

TN

TB

T S/

r/min

Nm

Nm

TN

Output kW

Motor type

Product code

3000/1500 r/min = 2-4 poles

Current

rated

EffiK 1)

ciency factor %

400 V 50 Hz

Moment

Weight

of inertia

IM

IS/IN

J=1/4GD 2

1001

A

kgm2

kg

Power IN

cos ϕ

Constant torque, two separate windings

1.1/0.55

M3ARS

90 S

3GAR 098 451-••E

2900/1450

3.6/3.6

35

1.4/1.5

9.7/9.7

74/62

0.85/0.64

2.5/2

5.1/3.6

0,0019

20

1.5/0.75

M3ARS

90 L

3GAR 098 452-••E

2900/1450

4.9/4.9

35

1.5/1.5

7.1/7.1

77/70

0.87/0.67

3.3/2.4

5.7/4.1

0,0024

23

2/1

M3ARS

100 L

3GAR 108 451-••E

2900/1460

6.5/6.5

44

1.9/1.4

7.7/7.7

76/67

0.89/0.66

4.3/3.3

6.2/4

0,0041

32

2.6/1.3

M3ARS

112 M

3GAR 118 451-••E

2900/1460

8.6/8.5

86

1.6/1.6

10/9.9

80/75

0.92/0.72

5.1/3.5

6.4/5

0,012

45

4.4/2.2

M3ARS

132 SB

3GAR 138 451-••E

2925/1450

14.4/14.5

130

2/1.3

8.1/8.1

81/74

0.86/0.73

9.1/5.9

7.3/4.5

0,016

55

5.6/2.8

M3ARS

132 M

3GAR 138 452-••E

2885/1440

18.5/18.6

130

1.8/1.4

10.4/10

82/77

0.93/0.75

10.6/7

6.7/5

0,022

76

3000/1500 r/min = 2-4 poles

400 V 50 Hz

Constant torque, Dahlander connection

1.3/1

M3ARS

90 S

3GAR 098 453-••E

2730/1400

4.5/6.8

35

2/1.5

7.8/5.1

71/71

0.88/0.8

3.1/2.6

3.9/3.8

0.0032

20

1.9/1.5

M3ARS

90 L

3GAR 098 454-••E

2820/1420

6.4/10

35

2.8/2

5.4/3.5

74/75

0.82/0.76

4.4/3.9

5.1/4.4

0.0043

23

2.5/2.1

M3ARS

100 LA

3GAR 108 452-••E

2800/1430

8.5/14

44

2.2/1.6

5.9/3.6

68/76

0.88/0.81

6/5

4.8/4.4

0.0069

32

3.4/2.5

M3ARS

100 LB

3GAR 108 453-••E

2810/1430

11.5/18

44

2.2/1.9

4.3/2.7

78/80

0.88/0.85

7.2/5.9

5.3/5.4

0.0082

35

4.26

M3ARS

112 M

3GAR 118 452-••E

2865/1430

13.3/17.4

86

1.8/2.3

10/9.9

82/77

0.93/0.76

7.6/6.5

6.3/6.2

0.012

45

6.3/4.4

M3ARS

132 SA

3GAR 138 461-••E

2895/1445

20.8/29

130

1.7/1.6

7.2/5.2

85/84

0.94/0.8

11.4/9.5

6.5/5.7

0.0155

58 55

4.7/3.1

M3ARS

132 SB

3GAR 138 453-••E

2820/1420

15.9/20.8

130

1.8/2.2

10.4/10

79/77

0.92/0.76

9.2/7.7

5.5/5.7

0.016

8/6.2

M3ARS

132 SC

3GAR 138 462-••E

2910/1440

26.2/41.1

130

1.9/1.6

6.9/3.6

87/85

0.95/0.83

14/12.7

7.8/5.6

0.0215

78

7.2/4.8

M3ARS

132 M

3GAR 138 454-••E

2870/1435

24/31.9

130

2.4/2.5

6.3/4.7

84/81

0.92/0.76

13.3/11.5 7.1/6.2

0.022

76

9.6/7

M3ARS

132 MD

3GAR 138 463-••E

2900/1440

31.6/46.4

130

1.8/1.7

4.7/3.2

87/85

0.95/0.85

16.8/14.1 7.6/5.9

0.026

85

1500/1000 r/min = 4/6 poles

400 V 50 Hz

Constant torque, two separate windings

0.8/0.5

M3ARS

90 S

3GAR 098 455-••E

1430/940

5.3/5

35

1.5/1.4

7/6.6

68/57

0.8/0.66

2.2/2

3.9/2.8

0.0032

20

1.2/0.75

M3ARS

90 L

3GAR 098 456-••E

1430/940

8/7.6

35

1.7/1.5

4.6/4.4

73/63

0.81/0.67

3/2.6

4.4/3.1

0.0043

23

1.5/0.9

M3ARS

100 LA

3GAR 108 454-••E

1440/960

9.9/8.9

44

1.5/1.5

5.6/5.1

75/69

0.84/0.65

3.5/3

4.7/3.8

0.0069

32

1.8/1.1

M3ARS

100 LB

3GAR 108 455-••E

1460/960

11/11

44

2.1/1.6

4.5/4.5

77/70

0.78/0.64

4.4/3.6

5.8/3.9

0.0082

35 45

2.6/1.7

M3ARS

112 M

3GAR 118 453-••E

1445/960

17.2/16.9

86

1.5/1.5

5/4.9

80/70

0.85/0.76

5.5/4.4

5.9/5.2

0.018

3.3/2.2

M3ARS

132 S

3GAR 138 455-••E

1470/980

21.4/21.4

130

1.4/1.2

4.5/3.0

82/76

0.8/0.65

7.1/6.4

6.8/4.6

0,038

61

3.3/2.2

M3ARS

132 M

3GAR 138 456-••E

1470/980

29.2/29.2

130

1.4/1.5

5.1/5.1

82/77

0.81/0.7

9.8/8

7.2/5.6

0,048

79

5.5/3.7

M3ARS

132 MD

3GAR 138 464-••E

1460/960

36/36.8

130

1.9/1.8

4.2/4.2

85/81

0.88/0.8

10.7/8.3

8/6.3

0,036

84

1)

Braking-torque ratio

22 9AKK105873 EN 03-2014 | ABB Motors and Generators

Technical data Two-speed motors with three phase AC brake

IP 55 – IC 411 – Insulation class F, temperature rise class F – Brake IP 23 S Torque braking

Speed

TN

TB

T S/

r/min

Nm

Nm

TN

Output kW

Motor type

Product code

3000/750 r/min = 2/8 poles

Current

rated

Moment

Weight

of inertia

IM

IS/IN

J=1/4GD2

1001

A

kgm2

kg

Power K1)

400 V 50 Hz

Efficien-

factor

cy %

cos ϕ

IN

Constant torque, two separate windings

0.75/0.18 M3ARS 90 LA

3GAR 098 461-••E

2875/720

2.5/2.4

35

2.3/1.3

14/14

71.2/46.3 0.8/0.51

1.9/1.1

5.7/2.4

0,0043

23

1.3/0.33

M3ARS 90 LB

3GAR 098 462-••E

2780/690

4.4/4.5

35

1.8/1.2

8/8

71/52

0.92/0.62

2.9/1.5

4.5/2.3

0,0043

23

1.8/0.5

M3ARS 100 LB

3GAR 108 460-••E

2860/705

6.0/6.7

44

1.7/1.3

8.3/7.4

80/54

0.93/0.64

3.5/2.1

5.3/2.6

0,0082

35

2.2/0.59

M3ARS 112 MC 3GAR 118 456-••E

2900/720

7.2/7.8

86

2.4/1.6

11.8/11

78/62

0.87/0.55

4.9/2.5

7/3.5

0,015

42

3.3/0.95

M3ARS 132 SA

2940/730

10.7/12.4

130

2.6/1.2

14/12

81/72

0.95/0.52

6.2/3.7

9.5/4.3

0,0215

65

4.4/1.3

M3ARS 132 MC 3GAR 138 466-••E

2920/725

14.4/17.1

130

2.2/1.3

10.7/8.8 82/74

0.94/0.62

8.3/4.1

8.6/4

0,03

77

3GAR 138 465-••E

1500/750 r/min = 4/8 poles

400 V 50 Hz

Constant torque, two separate windings

0.55/0.25 M3ARS 90 S

3GAR 098 457-••E

1450/700

3.6/3.4

35

1.3/1.4

10.3/9.7 62/51

0.78/0.59

1.9/1.2

4.2/2.3

0.0032

20

0.75/0.37 M3ARS 90 L

3GAR 098 458-••E

1450/700

4.9/5

35

1.4/1.5

7.1/7

0.75/0.57

2.2/1.7

4.1/2.5

0.0043

23

66/57

1.1/0.55

M3ARS 100 LA

3GAR 108 456-••E

1460/710

7.2/7.4

44

1.2/1.2

6.9/6.8

68/62

0.77/0.61

3.1/2.2

4.2/2.6

0.0069

32

1.5/0.75

M3ARS 100 LB

3GAR 108 457-••E

1440/700

9.8/10

44

1.3/1.2

5.1/5

72/60

0.82/0.6

3.7/2.9

4.6/2.7

0.0082

35

1.8/0.9

M3ARS 112 M

3GAR 118 454-••E

1460/715

11.7/12

86

1.2/1.6

7.3/7.1

77/65

0.76/0.66

4.4/3

6.5/4

0.018

45

2.5/1.3

M3ARS 132 S

3GAR 138 457-••E

1480/735

16.2/17

130

1.6/1.4

9.3/8.8

80/67

0.79/0.56

5.8/6

6/3.7

0.038

61

3.3/1.7

M3ARS 132 M

3GAR 138 458-••E

1470/725

21.4/22.4

130

1.6/1.4

7/6.7

81/71

0.79/0.58

7.5/6

7/4.2

0.048

79

1500/750 r/min = 4-8 poles

400 V 50 Hz

Constant torque, Dahlander connection

0.7/0.37

M3ARS 90 S

3GAR 098 459-••E

1420/700

4.7/5.1

35

1.6/1.6

7.4/6.9

72/50

0.8/0.57

1.8/1.9

4.4/2.3

0.0032

20

1.1/0.55

M3ARS 90 L

3GAR 098 460-••E

1390/685

7.4/7.5

35

1.4/1.5

4.7/4.7

70/55

0.84/0.58

2.6/2.6

4.1/2.3

0.0043

23

1.5/0.75

M3ARS 100 LA

3GAR 108 458-••E

1440/710

10/10

44

1.4/1.5

5/5

76/62

0.85/0.57

3.4/3.2

4.6/2.8

0.0069

32

2/0.95

M3ARS 100 LB

3GAR 108 459-••E

1440/710

13/12

44

1.4/1.6

4.2/3.8

78/64

0.86/0.55

4.4/4

4.8/2.9

0.0082

35

2.5/1.5

M3ARS 112 M

3GAR 118 455-••E

1410/705

16.9/20.3

86

1.4/1.5

5/4.2

78/67

0.9/0.66

5.1/4.9

5.5/4.1

0.018

45

3.8/1.9

M3ARS 132 S

3GAR 138 459-••E

1450/730

25/24.9

130

1.4/1.3

6/6

82/70

0.84/0.52

7.7/7.6

5.6/3.7

0.038

61

5/2.5

M3ARS 132 M

3GAR 138 460-••E

1455/730

32.8/32.7

130

1.7/2

4.6/4.6

85/73

0.88/0.52

9.6/9.6

6.9/4.8

0.048

79

1)

Braking-torque ratio

The bullets in the product code indicate choice of mounting arrangement and voltage and frequency code, see below and ordering information page.

Code letters for supplementing product code for mounting arrangement: Foot-mounted

A

Flange-mounted, 1 flange

B for frame sizes 63-100

Flange-mounted, 2 flanges

N for frame sizes 90-132

Flange-mounted, small flange

C for frame sizes 63-100

E for frame sizes 112-132.

Code letters for supplementing product code for voltage and frequency (pos 13): A

B

S

D

Motor

Motor

Brake

Motor

Brake

Motor

Brake

Motor

Brake

size

50 Hz

50 Hz

50 Hz

50 Hz

50 Hz

50 Hz

50 Hz

50 Hz

63-132

–

–

–

–

220-230 V

230 V∆

380-400 V

400 V∆

E

H

X

Motor

Motor

Brake

Motor

size

50 Hz

50 Hz

50 Hz

Brake 50 Hz

Any other rated voltage or

63-132

500 V

500 V∆

415 V

415 V∆

frequency, 690 V maximum

ABB Motors and Generators | 9AKK105873 EN 03-2014 23

Variant codes

Code / Variant

M3VRF/S

M3ARF/S

63

71

80

90

100 112 132 160 180

Brakes 086

Separate brake supply

M

M

M

M

M

M

M

R

R

087

Brake with reduced torque, torque range 60 % – 33 % of nominal torque.

NA

NA

NA

P

P

P

P

P

P

088

Hand release

M

S

S

S

S

S

S

S

S

213

Brake with increased degree of protection.

M

M

M

M

M

M

M

M

M

Rubber ring and V-ring for IP55 protection. 285

Reconnection of brake for separate dc supply at 24 V.

R

M

M

M

M

M

M

M

M

288

Brake motor with voltage code S for the motor and separate supply of the brake for voltage

R

M

M

M

M

M

M

M

M

R

M

M

M

M

M

M

M

M

corresponding to code D. 289

Brake motor with voltage code D for the motor and separate supply of the brake for voltage corresponding to code S.

290

Brake motor with a.c. brake, change into d.c. brake keeping the voltage code.

R

M

M

M

M

M

M

M

M

291

Brake motor with d.c. brake, change into a.c. brake keeping the voltage code.

R

M

M

M

M

M

M

M

M

Non-standard voltage or frequency (special winding). Different brake coil (e.g. 25 Vdc), max. 500 Vac.

R

R

R

P

P

P

P

P

P

Protective roof, for vertical mounting with shaft end downwards.

M

M

M

M

M

M

M

M

M

Special voltage 209 Protection 005

For other variant codes please see section for standard aluminum motors or consult ABB. S

= Included as standard

P

= New manufacture only.

M

= On modification of a stocked motor or on new manufacture, the number per order may be limited.

R

= On request.

NA = Not applicable. Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412.

Brake rating plates

24 9AKK105873 EN 03-2014 | ABB Motors and Generators

M000134

M000133

The brake rating plates have the following arrangement:

Dimension drawings Brake motors, sizes 63 - 132

IM B3 (IM 1001)

L AC

LP UB1

AE

UB2

F

GA

HL HD

HC G

DB EG

H

D AA

K BC

E

C

HA

A

B

M000135

BA

AB

BB

Motor size

A

AA

AB

AC

AE

B

BA

BB

BC

C

D

DB

E

EG

63 A/B

100

26

120

123

85

80

21

96

21

40

11

M4

23

10

71

112

24

136

139

85

90

31

110

31

45

14

M5

30

13

80

125

28

154

156

97

100

34

125

34

50

19

M6

40

16

90S

140

27

170

177

110

100

30

125

30

56

24

M8

50

19 19

90 L

140

27

170

177

110

125

30

150

30

56

24

M8

50

100 L

160

32

197

197

110

140

34

172

34

63

28

M10

60

22

112 M

190

41

222

221

160

140

31

168

31

70

28

M10

60

22

132 S

216

47

262

261

160

140

40

212

76

89

38

M12

80

28

132 M

216

47

262

261

160

178

40

212

76

89

38

M12

80

28

Motor size

F

GA

H

HA

HC

HD

HL

K

L

LP

UB1

UB2

63 A/B

4

12.5

63

10

-

180

107

7

270

66

M16

Pg11

71

5

16

71

9

-

176

114

7

316

76

M20

Pg16

80

6

21.5

80

10

-

190

124

10

360

70

M20

Pg16

90S

8

27

90

10

177

217

161

10

370

70

M20

M25

90 L

8

27

90

10

177

217

161

10

395

70

M20

M25

100 L

8

31

100

12

197

237

173

12

453

105

M20

M25

112 M

8

31

112

12

226

258

184

12

487

105

M20

M25

132 S

10

41

132

14

264

296

225

12

606

119

M20

M25

132 M

10

41

132

14

264

296

225

12

606

119

M20

M25

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412. Tolerances: D ISO j6 (≤ 28 Ø) D ISO k6 (38-42 Ø) F ISO h9 H + 0, - 0.5 Above table gives the main dimensions in mm. For detailed drawings please see our web-pages ‘www.abb.com/motors&generators’ or contact us.

ABB Motors and Generators | 9AKK105873 EN 03-2014 25

Dimension drawings Brake motors, sizes 63 - 132

IM B5 (IM 3001), IM V1 (IM 3011), IM B14 (IM 3601)

L LP UB1

UB2

F

HL

P N G

HB AC

S

EG

DB

M

D T

45˚

LA

M000136

GA

E

IM B5 (IM 3001) Motor size

AC

D

DB

E

EG

F

GA

HB

HL

L

LP

UB1

UB2

63 A/B

123

11

M4

23

10

4

12.5

117

107

270

66

M16

Pg 11

71

139

14

M5

30

13

5

16

105

114

316

76

M20

Pg 16

80

156

19

M6

40

16

6

21.5

110

124

360

70

M20

Pg16

90S

178

24

M8

50

19

8

27

127

161

370

70

M20

M25

90 L

178

24

M8

50

19

8

27

127

161

395

70

M20

M25

100 L

198

28

M10

60

22

8

31

137

173

453

105

M20

M25

112 M

223

28

M10

60

22

8

31

146

184

487

105

M20

M25

132 S,M

264

38

M12

80

28

10

41

164

225

606

119

M20

M25

IM B5 (IM 3001)

IM B14 (IM 3601)

Motor

IEC

size

flange

LA

M

N

P

S

1)

T

Motor size

IEC flange

LA

M

N

P

S

T

63 A/B

FF115

10

115

95

140

M8

3

63 A/B

FT75

10

75

60

90

M5

2.5

71

FF130

10

130

110

160

M8

3.5

71

FT85

10

85

70

105

M6

2.5

80

FF165

12

165

130

200

M10

3.5

80

FT100

10

100

80

120

M6

3

90

FF165

11

165

130

200

M10

3.5

90

FT115

14

115

95

140

M8

3

100

FF215

11

215

180

250

M12

4

100

FT130

16

130

110

160

M8

3.5

112

FF215

11

215

180

250

M12

4

112

FT130

9.5

130

110

160

M8

3.5

132

FF265

12

265

230

300

M12

4

132

FT165

14.5

165

130

200

M8

3.5

Tolerances: D ISO j6 (≤ 28 Ø)

2)

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors with variant code 412.

D ISO k6 (38-42 Ø) F ISO h9 1)

Clearance holes for bolt.

2)

Two pieces modular flange.

Modular flanges: Brake motors sizes 71 - 132 can be supplied with several non standard modular flange dimensions Above table gives the main dimensions in mm. For detailed drawings please see our web-pages ‘www.abb.com/motors&generators’ or contact us.

26 9AKK105873 EN 03-2014 | ABB Motors and Generators

Brake motors in brief Basic design

Motor size

63

Stator and feet

Die-cast aluminum alloy.

71

80

90

Material

Detachable feet

Paint colour shade

Munsell blue 8B 4.5/3.25 / NCS 4822 BO5G / RAL 5014

Paint

Epoxy polyester powder paint, ≥ 30 µm.

Material

Die-cast aluminum alloy.

Paint colour shade

Munsell blue 8B 4.5/3.25 / NCS 4822 BO5G

100

112

132

Feet integrated with stator

2-pack polyurethane paint,

Bearing end shields

≥20µm.

2-pack polyurethane paint,

Flanges

Paint

Epoxy polyester powder paint, ≥ 30 µm.

≥20µm

Material

Die-cast aluminum alloy.

Cast iron

Paint colour shade

Munsell blue 8B 4.5/3.25 / NCS 4822 BO5G / RAL 5014

Paint

Epoxy polyester powder paint, ≥ 30 µm.

2-pack polyurethane paint,

Bearings D-end

N-end

6203-

6204-

6205-

6306-

6206-

2Z/C3

2Z/C3

2Z/C3

2Z/C3

2Z/C3

2Z/C3

2Z/C3

6202-

6203-

6204-

6205-

6206-

6206-

6208-

2Z/C3

2Z/C3

2Z/C3

2Z/C3

2Z/C3

2Z/C3

2Z/C3

Inner bearing circlip, on request.

Axially locked bearings

System

In sizes 71-80 mounting large flange.

Bearing seals

D-end

V-ring

N-end

V-ring

6208-

Inner bearing cover at D-end.

Permanently lubricated bearings. Grease for bearing temperatures -40…+160°C.

Lubrication Terminal box

≥20µm

6202-

Material

Die-cast aluminum alloy.

Surface treatment

Similar to stator.

Srews

Steel 5 G, chromated. 1 x M16 +

Connections Knock-out openings

Pg11

2xM20 + Pg16

2 x(M25 + M20)

2 x(M25 + M20)

Max Cu area, mm2

2.5

4

6

10

Terminal box

Screw terminal, 6 terminals.

Fan

Material

Polypropylene. Reinforced with 20% glass fibre.

Cable lugs, 6 terminals.

Fan cover

Material

Steel.

Stator winding

Material

Copper.

Impregnation

Polyester varnish. Tropicallised.

Insulation class

Insulation class F. Temperature rise class B, unless otherwise stated.

Stator winding Optional.

temperature sensors Rotor winding

Material

Die-cast aluminum.

Balancing method

Half key balancing.

Key ways

Closed key way.

Enclosure

Motor, terminal box and brake electrical components: IP 55. Brake mechanical components: IP23 S (IP 55 optional).

Cooling method

IC 411

Brake motors in frame sizes 160-180, please select from Low voltage Process performance motors catalog, aluminum motors.

ABB Motors and Generators | 9AKK105873 EN 03-2014 27

For your notes:

28 9AKK105873 EN 03-2014 | ABB Motors and Generators

For your notes:

ABB Motors and Generators | 9AKK105873 EN 03-2014 29

Total product product offering offering Total Motors, generators generators and and mechanical mechanical power power transmission transmission Motors, products with with a a complete complete portfolio portfolio of of services services products

ABB is the leading manufacturer of low, medium and high voltage motors and generators, and mechanical power transmission products. ABB products are backed by a complete portfolio of services. Our in-depth knowledge of virtually every type of industrial process ensures we always specify the best solution for your needs. > –– –– –– –– –– ––

Low and medium voltage high voltage IEC induction motors Process performance motors General performance motors High voltage cast iron motors Induction modular motors Slip-ring modular motors Synchronous reluctance motors

> Low and medium voltage NEMA motors –– Steel frame open drip proof (ODP) motors motors –– Weather protected, water cooled, fan ventilated –– Cast iron frame (TEFC) –– Air to air cooled (TEAAC) motors

66

> – –

Motors and and generators generators for for Motors explosive atmospheres atmospheres explosive IEC and and NEMA NEMA motors motors and and IEC generators, for for all all protection protection types types generators,

Synchronous motors motors > Synchronous > – – – –

Synchronous generators generators Synchronous Synchronous generators generators for for Synchronous diesel and and gas gas engines engines diesel Synchronous generators generators for for Synchronous steam and and gas gas turbines turbines steam

Wind power power generators generators > Wind Generators for for small small hydro hydro > Generators Other motors motors and and generators generators > Other – Brake Brake motors motors – – DC DC motors motors and and generators generators – – Gear Gear motors motors – – Marine Marine motors motors and and generators generators – – Single Single phase phase motors motors – – Motors Motors for for high high ambient ambienttemperatures temperatures – – Permanent Permanent magnet magnet motors motors and and – generators generators – High High speed speed motors motors – – Smoke Smoke extraction extraction motors motors –

9AKK105767 EN 06-2013 | ABB Motors and Generators

30 9AKK105873 EN 03-2014 | ABB Motors and Generators

– – – – – – – – – – – –

Wash down down motors motors Wash Water cooled cooled motors motors Water Generator sets sets Generator Roller table table motors motors Roller Low inertia inertia motors motors Low Traction motors motors and and generators generators Traction

Life cycle cycle services services > Life – Installation Installation and and commissioning commissioning – – Spares Spares and and consumables consumables – – Preventive Preventive maintenance maintenance – – Predictive Predictive maintenance maintenance – – Condition Condition monitoring monitoring – – On-site On-site and and workshop workshop – – Remote Remote troubleshooting troubleshooting – – Technical Technical support support – – Engineering Engineering and and consulting consulting – – Extensions, Extensions, upgrades upgrades and and retrofits retrofits – – Replacements – Replacements – Training – Training – Service Service agreements agreements – Mechanical power power transmission transmission > Mechanical components, bearings, bearings, gearings gearings components,

Life cycle services and support From pre-purchase to migration and upgrades

ABB offers a complete portfolio of services to ensure troublefree operation and long product lifetimes. These services cover the entire life cycle. Local support is provided through a global network of ABB service centers and certified partners. Pre-purchase − − ABB’s front-end sales organization can help customers to quickly and efficiently select, configure and optimize the right motor or generator for their application. Installation and commissioning − − Professional installation and commissioning by ABB’s certified engineers represent an investment in availability and reliability over the entire life cycle. Engineering and consulting − − ABB’s experts provide energy efficiency and reliability appraisals, advanced condition and performance assessments and technical studies.

Condition monitoring and diagnosis −− Unique services collect and analyze data to provide early warnings of problems before failures can occur. All critical areas of the equipment are covered. Maintenance and field services −− ABB offers life cycle management plans and preventive maintenance products. The recommended fourlevel maintenance program covers the entire product lifetime.

Migration and upgrades −− Life cycle audits determine the optimum upgrades and migration paths. Upgrades range from individual components to direct replacement motors and generators. Training −− Product and service training courses take a practical approach. The training ranges from standard courses to specially tailored programs to suit customer requirements.

Spare parts −− Spare parts and support are offered throughout the life cycle of ABB products. In addition to individual spares, tailored spare part packages are also available.

Specialized support −− Specialized support is offered through ABB’s global service organization. Local units provide major and minor repairs as well as overhauls and reconditioning.

Repair and refurbishment −− Support for all ABB motors and generators and other brands is provided by ABB’s global service organization. Specialist teams can also deliver emergency support.

Service contracts −− Service contracts are tailored to the customer’s needs. The contracts combine ABB’s entire service portfolio and 120 years of experience to deploy the optimal service practices.

ABB Motors and Generators | 9AKK105873 EN 03-2014 31

www.abb.com/motors&generators

We reserve the right to make technical changes or modify the contents of this document without prior notice. With regard to purchase orders, the agreed particulars shall prevail. ABB does not accept any responsibility what so ever for potential errors or possible lack of information in this document. We reserve all rights in this document and in the subject matter and illustrations contained herein. Any reproduction, disclosure to third parties or utilization of its contents – in whole or in parts – is forbidden without prior written consent of ABB. Š Copyright 2013 ABB. All rights reserved.

9AKK105873 EN 03-2014

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